Device for transmitting data and control commands via radio connections in a distributed control system for one or more machines and/or processes

1. A network having a plurality of nodes forming a distributed control system for a plurality of machines with pre-established communication connections between said nodes comprising: a system for pre-establishing communications between a plurality of nodes by assigning unique transmit and receive time slots to said plurality of nodes and for placing other nodes in a receive only state; a radio transmitter and receiver at each node for receiving information from other nodes and transmitting information to other nodes via radio communications during transmit and receive time slots assigned to said node; a local clock; and a connection device connected to said local clock for enabling said transmitter and receiver during said time slots wherein each of said plurality of nodes is a transmitting node and transmits information to a pre-identified receiving node during a time said pre-identified node has a corresponding receive time slot, and receives information during a time slot in which another of said nodes is transmitting information, whereby communications are established between nodes needing information from other nodes, and said other nodes remain in a receive only state.

2. The network according to claim 1 , further comprising a digital cable link interconnecting at least some of said nodes and said system for exchanging information with said nodes.

3. The network according to claim 1 , wherein said radio transmitter of said nodes transmits information at a power level as a function of time.

4. The network according to claim 1 , wherein said system includes a control node to reassign transmit and receive time slots to said nodes.

5. The network according to claim 4 , wherein said system reassigns said transmit and receive slots based on conditions reported by said nodes to said control node.

6. The network according to claim 1 , wherein each node further comprises means to control the direction of transmission from each node.

7. The network according to claim 3 , wherein said power level is selected so that said signal is received at a receiving node at a predetermined level above a noise threshold of said node receiver.

8. The network according to claim 7 , wherein nodes which are located within the coverage of a first node which do not need to receive or transmit to said first node have a transmit state deactivated.

9. The network according to claim 5 , wherein said system provides a global time clock for synchronizing said local clocks.

10. The network according to claim 7 , wherein said nodes measure the signal level of a transmission from a transmitting node and report said signal level to said system which determines time slots for said nodes from said signal level.

11. The network according to claim 1 , further comprising nodes outside of the coverage area of said transmitting node and said receiving node which communicate with each other at the time nodes within the coverage area are communicating with each other.

12. The network according to claim 10 , wherein nodes which are outside the coverage areas of the first node record a time period where signals have not been received or which have been received with interference, and report said periods to said system, and are used by said system to identify a time for transmission of said nodes outside of said coverage area.

13. The network according to claim 1 , wherein a node can change its direction of transmission to communicate with a different node.

14. The network according to claim 1 , comprising a mobile node in an area of coverage of said transmitting and receiving node.

15. A network having a plurality of nodes forming a distributed control system for a plurality of machines comprising: a system which pre-establishes communication connections between nodes by assigning unique transmit and receive time slots to each node; radio transmitter and receiver at each node for receiving information from other nodes and transmitting information to other nodes via radio communications, a first set of said nodes being assigned to communicate in a first geographic region, and a second set of said nodes being assigned to communicate in a second geographic region; a local clock for identifying the time of transmission and receiving states of the node in time slots previously assigned to said nodes; a connection device for enabling said transmitter and receiver at said identified time wherein said node transmits information to a pre-identified node in a respective geographic region during a time said pre-identified node has a corresponding receive state, and receives information during a state in which another of said nodes is transmitting information, whereby communications are established between pre-identified nodes needing information from other nodes in the same region said connection device placing certain of said nodes in a receive state only, and means to switch the transmit and receive directions of a node in said second region to communicate with a node in said first region.

16. A network having a plurality of nodes with pre-established communication connections between said nodes for controlling a plurality of machines comprising: a system for pre-establishing communications between said nodes by assigning unique transmit and receive time slots to said nodes; radio transmitter and receiver at each node for receiving information from other nodes, and transmitting information to other nodes via radio communications, a first set of said nodes being pre-assigned transmit and receive time slots to communicate with pre-identified nodes in a first geographic region and a second set of nodes being pre-assigned transmit and receive time slots to communicate with pre-identified nodes in a second geographic region at least one of said nodes operating in a receive state only; a local clock for identifying the respective transmit and receive time slots of each node; a connection device for enabling said transmitter and receiver at said identified time slots wherein a first node transmits information to a second, pre-identified node in a respective geographic region during a time slot a corresponding to a receive time slot of said second node, and said first node receives information during a time slot in which another of said nodes is transmitting information, whereby communications are established between pre-identified nodes needing information; signal detection apparatus at another of said nodes to detect said first node transmission; and means for forwarding said detected transmission from said another node to said second node when a signal level of said detected transmission is not sufficient to directly communicate with said second pre-identified node.

17. The network according to claim 16 , wherein said another of said nodes reports said signal level information to the system for pre-establishing communications between said another node said second node, whereby said transmission from said first node is forwarded to said second node.

18. The network according to claim 16 , further comprising nodes which only receive information from a transmitting node.

19. The network according to claim 18 , wherein said system which pre-establishes communication connections has a control node which can receive signal level information from said receive only node, and can re-assign communication connections based on said received information.

20. The network according to claim 19 , wherein said control node establishes a global time clock which is used to synchronize said local clock at each node.

21. The network according to claim 19 , further comprising mobile nodes which move in said first region and which have navigation systems to determine their position and which report their position to said control node.

22. The network according to claim 19 , further comprising mobile nodes in said first geographic region which have transmit signals monitored by other nodes which determine the position of said mobile nodes based on the time or arrival of said transmissions.

23. The network according to claim 19 , wherein said mobile nodes position are determined from signal information received by nodes which have a fixed position.